201111180 六、發明說明: I:發明戶斤屬之技術領域3 本發明係有關於流體配給裝置。201111180 VI. Description of the invention: I: Technical field of inventions 3 The invention relates to a fluid dispensing device.
L· JL 發明背景 流體配給系統諸如喷墨列印系統藉由從一喷墨列印頭 喷射液滴形式的墨水而在一基片,諸如紙上列印圖像。包 括長喷墨列印頭或長喷墨列印橫條的大規格喷墨列印機及 /或頁寬喷墨列印機由於大規格列印應用的增長而變得更 為大眾化。 【發明内容】 依據本發明之一實施例,係特地提出一種流體配給裝 置,包含:一流體喷射器單元,具有複數個喷嘴,且在一 縱長方向上延伸以形成一與一基片的一寬度對應的配給 區,該流體喷射器單元被組配成經由該等喷嘴喷射流體至 該配給區;複數個模組調節器構件,被組配成將流體調節 至一預定壓力範圍,且將該調節的流體提供至該流體喷射 器單元的一對應組喷嘴,該等模組調節器構件被配置在縱 長方向,使得每一該等模組調節器構件與至少另一模組調 節器構件相鄰;及一流體通道單元,具有至少一個流體入 口及複數個被組配成將流體提供至該等各自模組調節器構 件的流體通道。 圖式簡單說明 本發明的廣義發明概念的示範性非限制實施例參考所 201111180 附圖式被描述於下列說明中,且不限制申請專利範圍之範 圍。在圖式中,出現在一個以上圖式中的相同及相似結構、 元件或元件的部份在出現的圖式中大體以相同或相似的標 記標明。繪示於圖中的組件及特徵之尺寸主要為便利及呈 現清楚而被選擇而非必然是按比例的。參見附圖: 第1圖是繪示依據本發明廣義發明概念之一實施例的 一流體配給系統的透視圖; 第2圖是繪示依據本發明廣義發明概念之一實施例的 第1圖流體配給系統的方塊圖; 第3圖是繪示依據本發明廣義發明概念之一實施例的 一流體配給系統的方塊圖;及 第4圖是繪示依據本發明廣義發明概念之一實施例的 一喷墨列印系統的方塊圖。 I:實施方式3 較佳實施例之詳細說明 在下文詳細描述中,參考形成描述之一部份的附圖, 且以說明廣義概念被實施之特定實施例的方式被描述。必 需理解的是其他實施例可被利用,且在不違背本發明廣義 發明概念的範圍下可作成結構或邏輯改變。因此,下文詳 細描述並不以一限制意義被理解,且本發明廣義發明概念 的範圍藉由所附申請專利範圍界定。 執行大規格列印應用的流體配給系統諸如喷墨列印系 統隨著大規格列印應用需求的增加而有更多的需求。特別 是,使用喷墨於其上之更寬基片的應用促進增加長喷墨列 201111180 印頭及長噴墨列印橫條之長度的需求。然而,大體上,增 加列印頭及列印橫條的長度往往導致列印頭與列印橫條端 到端的大壓力變化。特別是,當在操作或運送期間可能發 生列印頭及列印橫條以一垂直指向的長軸定向時。另外, 雖然需要負壓以防止滲漏,一過大的負壓可能對正常列印 條件下的列印品質有不利影響。因此,在本發明廣義發明 概念的實施例中,列印頭及列印橫條藉由使其包括複數個 分離的流體段而被加長,各流體段可與包覆在一單一裝配 中之自身壓力調節裝置關聯。 第1圖是繪示依據本發明廣義發明概念一實施例的一 流體配給系統之透視圖。第2圖是繪示依據本發明廣義發明 概念一實施例的第1圖之流體配給系統的方框圖。參考第1 圖及第2圖,在本實施例中,一流體配給系統100包括一流 體配給裝置10、一流體供應16及一基片輸送單元17。在一 實施例中,流體配給系統100可以是一喷墨列印系統,且流 體配給裝置10可以是一喷墨列印頭,諸如一長喷墨列印頭 及/或一長喷墨列印橫條。在本實施例中,流體配給裝置10 包括一流體喷射器單元14,其包括複數個具有一或多組喷 嘴11a及lib的流體喷射器構件14a及14b,及具有至少一流 體入口 13a及複數個流體通道13b的一流體通道單元13。 參考第1圖,基片輸送單元17可包括一輸送帶17a及與 輸送帶17a接觸之輸送輥17b。在本實施例中,輸送帶17a被 組配成將一基片18,諸如紙向一對應流體配給裝置10之配 給區19往返輸送,且輸送輥17b被組配成移動輸送帶17a。 201111180 在其他實施例中,基片輪送嚴 早几17可包括一輸送轉筒、一 滚筒,或任一其他基片輸送槿杜 霉件以將一基片向該技藝中具 有通常知識者習知的一流體& ^ 机體配給裝置的一配給區往返輸 送。 在本實施例中,如第1圖及第2圖所示,流體噴射器單 元Μ包括複數個配置在縱長方向上㈣體噴射輯件⑷ 及14b,使得每-該等流體噴射器構件Ma及⑽與至少一其 他流體喷射器構件相鄰。每—該等流體喷射器構件 14b可包括-或多組喷嘴lla及Ub,在縱長方向上延伸以形 成一配給區19,諸如一可列印區,例如,對應於基片“的 一寬度。流體喷射器單元14被組配成選擇性地經由喷嘴Ua 及lib噴射流體至配給區19,例如,當基片19被設置於配給 區19内時。出自一或一以上流體喷霧器構件14a及Ub的一 對應組喷嘴對應於一個別模組調節器構件12a及12b且與它 們流體連通。在一實施例中,與一個別模組調節器構件對 應的每一該等對應組喷組彼此不同。即,複數個喷嘴 沒有一個別喷嘴在多於一對應組噴嘴1 la及Ub中。 例如,一對應組噴嘴可以是出自一流體喷射器構件, 諸如一噴射一單色流體的單色流體噴射器構件的全部喷 嘴。因此,如第1圖及第2圖所示,流體噴射器構件14a包括 一組喷嘴11a。在此實施例中,例如’模組調節器構件12a 與對應喷頭組11a對應且與其流體連通。在另一實施例中, 對應組噴嘴可包括出自不止一流體噴射器構件14a及 14b(第3圖)的一組喷嘴,而每一該等流體噴射器構件14a及 201111180 i4b 可包括複數組的噴嘴 llai、llbi、Uei、iid|Aiia2、iib2、 llc2與lld2 ’諸如-嘴射數種顏色流體的多色流體嘴射器構 件。因此,對應組喷嘴可以是出自每—料流體噴射器構 件14a及14d的—喷嘴組。例如,制於各職組調節器構 件12a的對應組噴嘴可包括嘴嘴組Ua,及】la2,對應於各別模 組調節器構件12b的對應組喷嘴可包括喷嘴組及心, 對應於各別模組調節器構件12e的對應組喷嘴可包括喷嘴 組1 lj 1 le2 ’且對應各㈣組調節器12d的對應组喷嘴可包 括喷嘴組lldl&lld2 〇 參考第1圖及第2圖,模組調節器構件12 a及12b被配置 在縱長方向’例如對應流體噴射器單元14的長度,使得每 -該等模組調節器構件12a及12b與至少另—模組調節器構 件12a及12b相鄰。因此,每一該等模組調㈣構件仏及⑶ 上例如由於方向及操作的壓力變化將是相同的,就像各別 的模組調節器構件12a及12b個別存在,而不是—伸長調節 器。每一该複數個模組調節器構件12a及12b被組配成調節 流體到一預定壓力範圍,且將該調節的流體提供至一或一 以上流體喷射器構件14 a及14 b的對應組喷嘴丨丨a及i丨b。例 如,模組調節器構件12a&12b調節流體以防止經由流體喷 射器單元14的噴嘴丨la及丨lb滴流,同時防止流體配給裝置 10的過度減少裝填。在本實施例中,預定壓力範圍是但不 限制於-0.5吋水壓到_3〇吋水壓,包括_3吋水壓到_15吋水 壓。流體通道單元13包括至少一流體入口 13a及複數個流體 通道13b,被組配成向各自模組調節器構件丨2a及丨2b提供流 201111180 體。 在一實施例中,每一該等模組調節器構件12a及12b包 括一容納一調節構件的外殼,諸如發泡體,一充氣囊,或 該技藝中具有通常知識者所習知可將流體調節至一預定壓 力範圍的任一其他調節構件。該外殼也可包括一入口以接 收流體,一出口以輸出調節流體,以及附接構件以將各別 之模組調節器構件附接至一或一以上相鄰模組調節器構 件。 在一實施例中,流體通道單元13的至少一流體入口 13a 被連接至一被組配成對流體通道單元13供應流體的流體供 應16。流體供應16可包括一或一以上容器以儲存一流體。 該流體可包括,例如墨水,包括任一類型的顏料或著色劑, 諸如調色劑,或其他類型形成圖像材料。該墨水可採用多 種形式,諸如液體及半液體,或與列印系統一起使用的其 他形式以在一基片上列印圖像。容器可包括可拆卸容器或 固定容器,諸如墨水匣、喷霧罐或該技藝中具有通常知識 者所習知的任何其他流體供應。例如,在一實施例中,流 體供應16可包括一包含一單色墨水諸如黑色的可拆卸墨水 匣。在其他實施例中,流體供應16可以是多個墨水匣,各 包含一不同色墨水,諸如但不限制於青色、洋紅、黃色、 藍色及黑色。因此,在一實施例中,流體通道單元13的複 數個流體通道13 b可各與流體供應16的一各自墨水顏色及 一各自模組調節器構件12a及12b對應。在其他實施例中, 流體通道單元13的複數個流體通道13b可各自與流體供應 201111180 16的一單色墨水及模組調節器構件12a及12b的各別一或一 者以上流體連通。 苐3圖是繪示依據本發明廣義發明概念一實施例的一 "IL體配給系統的方塊圖。參考第3圖,流體配給系統3〇〇包 括如上所述且關於第1圖與第2圖繪示的流體供應16及一流 體配給裝置30。在本實施例中,流體配給裝置3〇可包括上 述關於第1圖及第2圖的流體配給裝置1〇的組件,附加模組 調節器構件12c及12d,喷嘴組lla|、ub,、lie丨、lld丨、lla2、 llb2、11C2 ,與iid2,及一歧管35。 參考第3圖,一第一組模組調節器構件12a及i2b各被組 配成將流體調節至一預定負壓範圍,且各自將各別的調節 流體提供至流體喷射器單元丨4的流體喷射器構件14a和14b 相關聯的一對應组喷嘴llai、lla2、與Ubi、Ub2。在本實 方€<例中’預定負壓範圍是但不限制於_〇.5忖水壓到_3〇忖水 壓,包括-3吋水壓到-15吋水壓。該第一組模組調節器構件 12a及12b被配置在縱長方向,使得每一該等第一組模組調 節器構件12a及12b分別與至少一另一第一組模組調節器構 件12b及12a相鄰,以形成一第一調節器列。一第二組模組 調節器構件12 c及12 d各被組配成將流體調節至一預定壓力 範圍,且各自將各別的調節流體提供至流體噴射器單元14 的流體喷射器構件14a及14b相關聯的一對應組喷嘴Uci、 lib、與lid,、114。第二組模組調節器構件12c及12d被配 置在縱向方向,使得每一該等第二組模組調節器構件12c及 12d分別與至少另一第二組模組調節器構件丨以及相 201111180 鄰’以形成與第一調節器列相鄰的一第二調節器列。 在一實施例中,歧管35可被設置於流體喷射器單元14 的上游。例如,歧管35可被設置於流體喷射器單元14與複 數個模組調節器構件12a、12b、12c及12d之間。因此,在 本實施例中,歧管35被組配成從每一該等模組調節器構件 12a、12b、12c及12d接收調節的流體,且將調節的流體提 供至流體噴射器單元14的各自流體喷射器構件14a與14b的 對應組喷嘴1131、11151、;11£;1、11山、1132、11132、11(;2及11(1。 例如,歧管35可包括複數個流體通道。歧管35的一第 一流體通道可從第一模組調節器構件】2 a其中之一者接收 調節的流體,且將調節的流體提供至各自流體噴射器構件 14a與14b的對應組喷嘴叫與叫。歧管_一第二流體通 道可從第-模組調節器構件12b中的另—者接收調節的流 體,且將該調節的流體提供至各自流體噴射器構件ι砂 咐的對應組喷嘴叫與叫。歧攸的一第三流體通道可 組調節器構件12e其中之—者接收調節的流體,且 應^·的讀提健各自讀噴射㈣件^與働的對 緩調與Μ。歧f 35的—第四流料道可從第二模 流構件12d的另—者接收調節的流體,且將該調節的 lld虚各自流體喷㈣構件Ha與Mb的對應組喷嘴 1罗f1Id)。 噴墨 括如 第4圖是繪示依據本發明廣義發明概念-實施例的-系統的方塊圖。參考第4圖,流體配給系統柳包 上所述且關於第叫所示的流體供應16及—流體配 201111180 給裝置40。在本實施例中,流體配給裝置40可包括上述關 於第1-3圖所示流體配給裝置1〇及3〇所述的組件、一上板構 件46、一過濾總成單元47 ' 一歧管板構件48、一具有—水 平表面49a及複數個區塊流體通道49b的區塊單元49,及— 下板構件45。 在本實施例中,上板構件46被設置於流體通道單元13 的一上表面上’且形成流體配給裝置40的一保護覆蓋。在 一實施例中,過濾總成單元47可被置於模組調節器構件 12a、12b、12c及12d的上游,且被組配成過濾、例如由流體 供應16及/或流體通道單元13提供的墨水。例如’過濾總成 單元47可被設置於流體通道單元13與模組調節器構件 12a、12b、12c及12d之間。在另一實施例中,過濾總成單 元47可被設置於模組調節器構件12a、12b、12c及12d下游, 例如,以過濾來自該等構件的調節墨水。在一實施例中, 過濾總成單元47可被設置於模組調節器構件模組調節器構 件12a、1处、12c及12d與歧管35之間。過濾總成單元47玎 包括一過濾總成頂部、一過濾總成底部,及被設置於過濾 總成頂部與過濾總成底部之間單元過渡匣。 在本實施例中,流體配給系統4〇〇是一喷墨列印系統, 且流體配給裝置400是一喷墨列印頭。該喷墨列印系統包枯 一被組配成供應墨水的流體供應16及一喷墨列印頭。該喷 墨列印頭包括一具有複數個喷嘴11且被組配成經由喷嘴11 將墨水噴射至一基片19(第1圖)上的流體喷射器單元14,複 數列的模組調節器構件12a、12b、12c及12d,各自包括 201111180 或二以上模組調節器構件12a、12b、12c及12d,被組配成 將墨水調節至一預定負壓範圍,且將調節的墨水提供至流 體喷射器單元14的一對應組喷嘴11a、lib、11c及Ud,使 得每一該等模組調節器構件12a、12b、12c及12d與至少二 其他模組調節器構件相鄰,一歧管35被設置於複數列模組 調節器構件12a、12b、12c及12d與流體喷射器單元14之間, 使得歧管35包括複數個流體通道,以從每一該等模組調節 器構件12a、12b、12c及12d將墨水輸送至流體喷射器14的 各自組噴嘴11a、11b、11c及lid,且一流體通道單元13被 組配成將墨水從流體供應16輸送至每一該等模組調節器構 件12a、12b、12c及12c^在本實施例中’預定壓力範圍是 但不限制於-0.5吋水壓到-30吋水壓,包括-3吋水壓到-15吋 水壓β 在一實施例中,區塊單元49可被設置於歧管35與流體 喷射器單元14之間。區塊單元49,例如可包括一水平表面 49a及複數個區塊流體通道4%,以將墨水從歧管35輸送至 對應組喷嘴11a、11b、He及llc^另外,歧管板構件48可 被置於歧管35與區塊單元49之間。歧管板構件48可被組配 成利於將墨水從歧管35輸送至區塊單元49,以防止墨水從 歧管35與區塊單元49之間滲漏。另外,下板構件45可被連 接至區塊單元49的水平表面49a。下板構件45被組配成將墨 水從區塊單元49輸送至對應組噴嘴11a、lib、lie及lid。 在一實施例中’流體噴射器單元14可包括複數個被配 置在縱長方向的流體噴射器構件⑷及14b(第旧),使得每 12 201111180 一 S亥等流體喷射器構件i4a及14b與至少另一流體喷射器構 件相鄰,且被安裝在下板構件45上。每一該等流體喷射器 構件14a及14b,例如可包括各自一組複數個喷嘴!la與L. JL BACKGROUND OF THE INVENTION Fluid dispensing systems, such as ink jet printing systems, print images on a substrate, such as paper, by ejecting ink in the form of droplets from an ink jet printhead. Large format inkjet printers and/or pagewidth inkjet printers, including long inkjet printheads or long inkjet printheads, have become more popular due to the growing use of large format printing applications. SUMMARY OF THE INVENTION According to an embodiment of the present invention, a fluid dispensing device is specifically provided, comprising: a fluid ejector unit having a plurality of nozzles and extending in a longitudinal direction to form a substrate and a substrate Width-matching dispensing zones, the fluid ejector unit being configured to eject fluid to the dispensing zone via the nozzles; a plurality of modular regulator components configured to condition the fluid to a predetermined pressure range and The conditioned fluid is provided to a corresponding set of nozzles of the fluid ejector unit, the modular regulator members being disposed in a longitudinal direction such that each of the modular regulator members is coupled to at least one other modular regulator member And a fluid channel unit having at least one fluid inlet and a plurality of fluid passages configured to provide fluid to the respective module regulator members. BRIEF DESCRIPTION OF THE DRAWINGS Exemplary non-limiting embodiments of the present general inventive concept are described in the following description with reference to the accompanying drawings. In the drawings, the same or similar structures, components, or parts of the elements in the above figures are generally indicated by the same or similar reference numerals in the drawings. The size of the components and features shown in the figures are chosen for convenience and clarity and are not necessarily to scale. 1 is a perspective view of a fluid dispensing system in accordance with an embodiment of the present invention; and FIG. 2 is a fluid view of FIG. 1 according to an embodiment of the present invention. a block diagram of a dispensing system; FIG. 3 is a block diagram showing a fluid dispensing system in accordance with an embodiment of the present general inventive concept; and FIG. 4 is a view showing an embodiment of a broad inventive concept according to the present invention. A block diagram of an inkjet printing system. I. Embodiment 3 DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS In the following detailed description, reference is made to the accompanying drawings in the claims It is to be understood that other embodiments may be utilized and structural or logical changes may be made without departing from the scope of the invention. Therefore, the following detailed description is not to be taken in a limiting Fluid dispensing systems that perform large format printing applications, such as inkjet printing systems, have increased demand as large format printing applications increase. In particular, the use of a wider substrate on which ink is ejected promotes the need to increase the length of the long ink jet column 201111180 printhead and long ink jet print strips. However, in general, increasing the length of the print head and the print strip tends to result in large pressure changes from end to end of the print head and the print strip. In particular, it may occur that the print head and the print bar are oriented with a vertically oriented long axis during operation or transport. In addition, although a negative pressure is required to prevent leakage, an excessive negative pressure may adversely affect the print quality under normal printing conditions. Thus, in an embodiment of the broad inventive concept of the present invention, the print head and the print strip are lengthened by including a plurality of separate fluid segments, each of which can be coated with itself in a single assembly The pressure regulating device is associated. BRIEF DESCRIPTION OF THE DRAWINGS Figure 1 is a perspective view showing a fluid dispensing system in accordance with an embodiment of the present general inventive concept. Figure 2 is a block diagram showing the fluid dispensing system of Figure 1 in accordance with an embodiment of the broad inventive concept of the present invention. Referring to Figures 1 and 2, in the present embodiment, a fluid dispensing system 100 includes a first-class body dispensing device 10, a fluid supply 16, and a substrate transport unit 17. In one embodiment, the fluid dispensing system 100 can be an inkjet printing system, and the fluid dispensing device 10 can be an inkjet printhead, such as a long inkjet printhead and/or a long inkjet printhead. Horizontal bar. In the present embodiment, the fluid dispensing device 10 includes a fluid ejector unit 14 including a plurality of fluid ejector members 14a and 14b having one or more sets of nozzles 11a and lib, and having at least one fluid inlet 13a and a plurality A fluid passage unit 13 of the fluid passage 13b. Referring to Fig. 1, the substrate conveying unit 17 may include a conveying belt 17a and a conveying roller 17b which is in contact with the conveying belt 17a. In the present embodiment, the conveyor belt 17a is assembled to reciprocate a substrate 18, such as paper, to a dispensing zone 19 of a corresponding fluid dispensing device 10, and the conveyor rollers 17b are assembled into a moving conveyor belt 17a. 201111180 In other embodiments, the substrate rotation a few 17 may include a delivery drum, a roller, or any other substrate transporting a mitochondrial member to impart a substrate to the art. Knowing a fluid & ^ a dispensing area of the body dispensing device shuttles. In the present embodiment, as shown in FIGS. 1 and 2, the fluid ejector unit Μ includes a plurality of (four) body jets (4) and 14b disposed in the longitudinal direction such that each of the fluid ejector members Ma And (10) adjacent to at least one other fluid ejector member. Each of the fluid ejector members 14b may include - or a plurality of sets of nozzles 11a and Ub extending in the longitudinal direction to form a dispensing zone 19, such as a printable zone, for example, corresponding to a width of the substrate The fluid ejector unit 14 is configured to selectively eject fluid to the dispensing zone 19 via the nozzles Ua and lib, for example, when the substrate 19 is disposed within the dispensing zone 19. From one or more fluid nebulizer components A corresponding set of nozzles 14a and Ub correspond to and in fluid communication with one of the module regulator members 12a and 12b. In one embodiment, each of the corresponding group of sprays corresponding to a different module adjuster member Different from each other, that is, a plurality of nozzles do not have one nozzle in more than one corresponding group of nozzles 1 la and Ub. For example, a corresponding group of nozzles may be from a fluid ejector member, such as a single color that ejects a monochromatic fluid. All of the nozzles of the fluid ejector member. Thus, as shown in Figures 1 and 2, the fluid ejector member 14a includes a plurality of nozzles 11a. In this embodiment, for example, the module regulator member 12a and the corresponding nozzle Group 11a corresponds In fluid communication therewith. In another embodiment, the corresponding set of nozzles can include a set of nozzles from more than one fluid ejector member 14a and 14b (Fig. 3), and each of the fluid ejector members 14a and 201111180 i4b can A multi-color fluid mouthpiece member comprising a plurality of nozzles llai, llbi, Uei, iid|Aiia2, iib2, llc2 and lld2 'such as a mouthpiece of a plurality of color fluids. Therefore, the corresponding group of nozzles may be from each fluid The nozzle groups of the injector members 14a and 14d. For example, the corresponding group of nozzles formed in each of the set of regulator members 12a may include a mouthpiece group Ua, and la2, corresponding to a corresponding group of the respective module regulator members 12b. The nozzles can include a nozzle set and a core, and a corresponding set of nozzles corresponding to the respective module adjuster members 12e can include a nozzle set 1 lj 1 le2 ' and a corresponding set of nozzles corresponding to each (four) set of adjusters 12d can include a nozzle set 11dl &lld2 Referring to Figures 1 and 2, the modular regulator members 12a and 12b are disposed in the longitudinal direction 'e, e.g., corresponding to the length of the fluid ejector unit 14, such that each of the modular regulator members 12a and 12b is At least another— The module adjuster members 12a and 12b are adjacent. Therefore, each of the modules (4) members 仏 and (3) will be identical, for example, due to direction and operational pressure changes, just like the respective module adjuster members 12a. And 12b are present individually, rather than - elongate adjusters. Each of the plurality of modular regulator members 12a and 12b is configured to regulate fluid to a predetermined pressure range and provide the conditioned fluid to one or more fluids Corresponding sets of nozzles 丨丨a and i丨b of the injector members 14a and 14b. For example, the modular regulator members 12a & 12b regulate fluid to prevent trickling of the nozzles 丨la and 丨lb via the fluid ejector unit 14, At the same time, the fluid dispensing device 10 is prevented from being excessively reduced in loading. In the present embodiment, the predetermined pressure range is, but not limited to, -0.5 Torr water pressure to _3 Torr water pressure, including _3 吋 water pressure to _15 Torr water pressure. The fluid channel unit 13 includes at least one fluid inlet 13a and a plurality of fluid passages 13b that are configured to provide flow to the respective module regulator members 丨2a and 丨2b. In one embodiment, each of the modular regulator members 12a and 12b includes a housing that houses an adjustment member, such as a foam, an inflatable bladder, or a fluid known to those of ordinary skill in the art. Any other adjustment member that is adjusted to a predetermined pressure range. The housing may also include an inlet for receiving fluid, an outlet for outputting conditioning fluid, and an attachment member for attaching the respective module regulator member to one or more adjacent module regulator members. In one embodiment, at least one fluid inlet 13a of the fluid channel unit 13 is coupled to a fluid supply 16 that is configured to supply fluid to the fluid channel unit 13. Fluid supply 16 may include one or more containers to store a fluid. The fluid can include, for example, ink, including any type of pigment or colorant, such as a toner, or other type of image forming material. The ink can be printed on a substrate in a variety of forms, such as liquid and semi-liquid, or other forms used with printing systems. The container may comprise a detachable container or a fixed container, such as an ink cartridge, a spray can or any other fluid supply as is conventional in the art. For example, in one embodiment, the fluid supply 16 can include a removable ink cartridge containing a single color ink such as black. In other embodiments, the fluid supply 16 can be a plurality of ink cartridges, each containing a different color ink such as, but not limited to, cyan, magenta, yellow, blue, and black. Thus, in one embodiment, the plurality of fluid passages 13b of the fluid passage unit 13 can each correspond to a respective ink color of the fluid supply 16 and a respective module adjuster member 12a and 12b. In other embodiments, the plurality of fluid passages 13b of the fluid channel unit 13 can each be in fluid communication with one or more of a single color ink and module regulator members 12a and 12b of the fluid supply 20111118016. Figure 3 is a block diagram showing an "IL body dispensing system in accordance with an embodiment of the broad inventive concept of the present invention. Referring to Fig. 3, the fluid dispensing system 3 includes a fluid supply 16 and a first-class body dispensing device 30 as described above and illustrated with respect to Figures 1 and 2. In the present embodiment, the fluid dispensing device 3A may include the components of the fluid dispensing device 1A described above with respect to Figures 1 and 2, additional module regulator members 12c and 12d, nozzle groups 11a|, ub, lie丨, lld丨, lla2, llb2, 11C2, and iid2, and a manifold 35. Referring to Figure 3, a first set of modular regulator members 12a and i2b are each configured to regulate fluid to a predetermined negative pressure range, and each provides a respective conditioning fluid to the fluid of fluid injector unit 丨4. A corresponding set of nozzles 11La, 11a2, and Ubi, Ub2 associated with injector members 14a and 14b. In the present embodiment, the predetermined negative pressure range is but not limited to _〇.5忖 water pressure to _3〇忖 water pressure, including -3吋 water pressure to -15吋 water pressure. The first set of module adjuster members 12a and 12b are disposed in a longitudinal direction such that each of the first set of modular adjuster members 12a and 12b and at least one other first set of modular adjuster members 12b And 12a are adjacent to form a first regulator column. A second set of modular regulator members 12c and 12d are each configured to regulate fluid to a predetermined pressure range and each provide respective conditioning fluid to fluid injector member 14a of fluid injector unit 14 and A corresponding group of nozzles Uci, lib, and lid, 114 associated with 14b. The second set of module adjuster members 12c and 12d are disposed in the longitudinal direction such that each of the second set of modular adjuster members 12c and 12d and at least another second set of modular regulator members and phase 201111180 Adjacent to form a second regulator column adjacent to the first regulator column. In an embodiment, the manifold 35 can be disposed upstream of the fluid ejector unit 14. For example, manifold 35 can be disposed between fluid injector unit 14 and a plurality of module regulator members 12a, 12b, 12c, and 12d. Thus, in the present embodiment, the manifold 35 is configured to receive the conditioned fluid from each of the modular regulator members 12a, 12b, 12c, and 12d and provide the conditioned fluid to the fluid ejector unit 14. Corresponding sets of nozzles 1131, 11151, 11; 1, 11 hills, 1132, 11132, 11 (2 and 11 (eg, manifold 35) of respective fluid ejector members 14a and 14b may include a plurality of fluid passages. A first fluid passage of the manifold 35 can receive the conditioned fluid from one of the first modular regulator members 2a and provide the conditioned fluid to a corresponding set of nozzles of the respective fluid ejector members 14a and 14b. And a manifold-a second fluid passageway receives the conditioned fluid from the other of the first module regulator members 12b and provides the conditioned fluid to a corresponding group of respective fluid ejector members The nozzle is called and called. A third fluid passage of the discriminating unit 12e can receive the regulated fluid, and the reading of the fluid should be read and read (four) pieces and the pair of 働 缓 缓 Μ The fourth flow channel of the difference f 35 may be from the second mold member 12d In addition, the conditioned fluid is received, and the lld of the respective fluids are sprayed (four) members Ha and Mb corresponding groups of nozzles 1 f1Id). Inkjet as shown in Figure 4 is a schematic representation of the broad inventive concept according to the present invention. Example - System block diagram. Referring to Figure 4, the fluid dispensing system is described above and relates to the fluid supply 16 and the fluid dispensing 201111180 to the device 40. In the present embodiment, the fluid dispensing device 40 The assembly described above with respect to the fluid dispensing devices 1A and 3A shown in Figures 1-3, an upper plate member 46, a filter assembly unit 47', a manifold plate member 48, and a horizontal surface 49a may be included. And a plurality of block fluid passages 49b, the block unit 49, and the lower plate member 45. In the present embodiment, the upper plate member 46 is disposed on an upper surface of the fluid passage unit 13 and forms the fluid dispensing device 40. A protective cover. In an embodiment, the filter assembly unit 47 can be placed upstream of the module regulator members 12a, 12b, 12c, and 12d and configured to be filtered, such as by the fluid supply 16 and/or The ink provided by the fluid channel unit 13. For example ' The filter assembly unit 47 can be disposed between the fluid channel unit 13 and the module regulator members 12a, 12b, 12c, and 12d. In another embodiment, the filter assembly unit 47 can be disposed in the module regulator member. Downstream 12a, 12b, 12c, and 12d, for example, to filter the conditioning ink from the components. In one embodiment, the filter assembly unit 47 can be disposed at the module regulator member module regulator member 12a, 1 Between 12c and 12d and manifold 35. Filtration assembly unit 47 includes a filter assembly top, a filter assembly bottom, and a unit transition between the top of the filter assembly and the bottom of the filter assembly. In the present embodiment, the fluid dispensing system 4A is an inkjet printing system, and the fluid dispensing device 400 is an inkjet printhead. The ink jet printing system packs a fluid supply 16 and an ink jet print head that are assembled to supply ink. The ink jet print head includes a fluid ejector unit 14 having a plurality of nozzles 11 and configured to eject ink through a nozzle 11 onto a substrate 19 (Fig. 1), a plurality of module regulator members 12a, 12b, 12c, and 12d, each comprising 201111180 or more module regulator members 12a, 12b, 12c, and 12d, configured to adjust ink to a predetermined negative pressure range, and to provide regulated ink to fluid ejection a corresponding set of nozzles 11a, lib, 11c and Ud of the unit 14 such that each of the modular regulator members 12a, 12b, 12c and 12d is adjacent to at least two other modular regulator members, a manifold 35 being Provided between the plurality of module regulator members 12a, 12b, 12c, and 12d and the fluid ejector unit 14 such that the manifold 35 includes a plurality of fluid passages from each of the modular regulator members 12a, 12b, 12c and 12d deliver ink to respective sets of nozzles 11a, 11b, 11c and lid of fluid injector 14, and a fluid channel unit 13 is configured to deliver ink from fluid supply 16 to each of said modular regulator members 12a, 12b, 12c and 12c^ in this embodiment' The constant pressure range is, but is not limited to, -0.5 Torr water pressure to -30 Torr water pressure, including -3 Torr water pressure to -15 Torr water pressure β. In one embodiment, the block unit 49 can be disposed in the manifold 35. Between the fluid injector unit 14. The block unit 49, for example, can include a horizontal surface 49a and a plurality of block fluid passages 4% to deliver ink from the manifold 35 to the corresponding set of nozzles 11a, 11b, He, and LLC. Additionally, the manifold plate member 48 can It is placed between the manifold 35 and the block unit 49. The manifold plate member 48 can be configured to facilitate delivery of ink from the manifold 35 to the block unit 49 to prevent ink from leaking between the manifold 35 and the block unit 49. Additionally, the lower plate member 45 can be coupled to the horizontal surface 49a of the block unit 49. The lower plate member 45 is assembled to transport ink from the block unit 49 to the corresponding group nozzles 11a, lib, lie, and lid. In one embodiment, the 'fluid ejector unit 14' may include a plurality of fluid ejector members (4) and 14b (old) disposed in the longitudinal direction such that fluid injector members i4a and 14b and each of 12 201111180 At least one other fluid ejector member is adjacent and mounted on the lower plate member 45. Each of the fluid injector members 14a and 14b, for example, can comprise a respective plurality of nozzles! La and
Ub,其對應於一各自之模組調節器組件12a、12b、12c及 12d且與它們流體連通。在一實施例中,每一該複數個流體 喷射器構件14 a及14 b可以是安裝於下板構件4 5上的列印頭 晶片。 本發明廣義發明概念已經利用發明之實施例的非限制 詳細說明肋述’該#實_是以實财賴提供且不欲 被用以限制本發明廣義發明概念之範圍。應理解關於一實 把例所描述的特徵及/或操作可與其他實施例—起使用,且 並非本發明廣義發明概念的全部實施例都具有在_特定圖 式或就其巾―實施例所描述的所㈣徵及/或操作。所述實 =1之變化將由該技#中的人想到。另外,名詞「包含」、 =括」、「具有」及它們的卿變化當被用於本揭露及/或 月專利範圍中時係、指「包括但不必被限制於」。 注意某些上述實施例可描述發明人考慮到的最佳模 1二因此可包括對於本發明廣義㈣概念非必要而僅被 實例的構造、動作或細節。本《述之構造及動作 =由執行㈣魏的等效㈣代,即便由習知技藝中所知 動作為為不相同者。因此,本發明廣義發明概念 已由巾«财使㈣元件及限㈣被限制。 【圖式簡單說明】 第1圖是緣示依據本發明廣義發明概念之-實施例的 13 201111180 一流體配給系統的透視圖; 第2圖是繪示依據本發明廣義發明概念之一實施例的 第1圖流體配給系統的方塊圖; 第3圖是繪示依據本發明廣義發明概念之一實施例的 一流體配給系統的方塊圖;及 第4圖是繪示依據本發明廣義發明概念之一實施例的 一喷墨列印系統的方塊圖。 【主要元件符號說明】 10、30、40…流體配給裝置 18…基片 11〜lld2…喷嘴 19···配給區 12a〜12d···模組調節器構件 35…歧管 13…流體通道單元 45…下板構件 13a···流體入口 46…上板構件 13b···流體通道 47…過濾總成單元 14…流體喷射器單元 48···歧管板構件 14a、14b…流體喷射器構件 49…區塊單元 16…流體供應 49a…水平表面 17…基片輸送單元 4%…區塊流體通道 17a…輸送帶 100〜400…流體配給系統 17b…輸送輥 W…寬度 14Ub, which corresponds to and is in fluid communication with a respective module regulator assembly 12a, 12b, 12c and 12d. In one embodiment, each of the plurality of fluid ejector members 14a and 14b can be a printhead wafer mounted to the lower plate member 45. The invention has been described with reference to the preferred embodiments of the invention, which are not to be construed as limiting the scope of the invention. It is to be understood that the features and/or operations described with respect to the embodiments may be used in connection with other embodiments, and not all embodiments of the broad inventive concept of the invention have a specific embodiment or a The description (4) of the enlistment and / or operation. The change in the actual =1 will be thought of by the person in the technique #. In addition, the terms "including", "including", "having", and their meanings are used in the context of this disclosure and/or monthly patent to mean "including but not necessarily limited to". It is noted that some of the above-described embodiments may describe the best mode contemplated by the inventors, and thus may include configurations, acts, or details that are not necessary for the generalized (four) concept of the present invention. The structure and action described in this essay = the equivalent (fourth) generation of Wei (4), even if it is known by the known techniques. Therefore, the broad inventive concept of the present invention has been limited by the towel (fourth) component and the limit (four). BRIEF DESCRIPTION OF THE DRAWINGS FIG. 1 is a perspective view showing a fluid dispensing system of a 201111180 according to an embodiment of the present invention. FIG. 2 is a view showing an embodiment of a broad inventive concept according to an embodiment of the present invention. 1 is a block diagram of a fluid dispensing system; FIG. 3 is a block diagram showing a fluid dispensing system in accordance with an embodiment of the present general inventive concept; and FIG. 4 is a diagram showing one of the broad inventive concepts in accordance with the present invention. A block diagram of an ink jet printing system of an embodiment. [Description of main component symbols] 10, 30, 40... Fluid dispensing device 18: Substrate 11 to 11d2... Nozzle 19··· Distribution area 12a to 12d···Module regulator member 35...Manifold 13... Fluid channel unit 45...lower plate member 13a···fluid inlet 46...upper plate member 13b···fluid passage 47...filter assembly unit 14...fluid injector unit 48··manifold plate member 14a, 14b...fluid injector member 49...block unit 16...fluid supply 49a...horizontal surface 17...substrate transport unit 4%...block fluid passage 17a...conveyor belt 100-400...fluid dispensing system 17b...conveying roller W...width 14